Literature DB >> 26785491

Single-base pair differences in a shared motif determine differential Rhodopsin expression.

Jens Rister1, Ansa Razzaq1, Pamela Boodram1, Nisha Desai1, Cleopatra Tsanis1, Hongtao Chen1, David Jukam1, Claude Desplan2.   

Abstract

The final identity and functional properties of a neuron are specified by terminal differentiation genes, which are controlled by specific motifs in compact regulatory regions. To determine how these sequences integrate inputs from transcription factors that specify cell types, we compared the regulatory mechanism of Drosophila Rhodopsin genes that are expressed in subsets of photoreceptors to that of phototransduction genes that are expressed broadly, in all photoreceptors. Both sets of genes share an 11-base pair (bp) activator motif. Broadly expressed genes contain a palindromic version that mediates expression in all photoreceptors. In contrast, each Rhodopsin exhibits characteristic single-bp substitutions that break the symmetry of the palindrome and generate activator or repressor motifs critical for restricting expression to photoreceptor subsets. Sensory neuron subtypes can therefore evolve through single-bp changes in short regulatory motifs, allowing the discrimination of a wide spectrum of stimuli.
Copyright © 2015, American Association for the Advancement of Science.

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Year:  2015        PMID: 26785491      PMCID: PMC4919384          DOI: 10.1126/science.aab3417

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  24 in total

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